FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2190200975> ?p ?o ?g. }

• W2190200975 endingPage "121" @default.
• W2190200975 startingPage "107" @default.
• W2190200975 abstract "MEPS Marine Ecology Progress Series Contact the journal Facebook Twitter RSS Mailing List Subscribe to our mailing list via Mailchimp HomeLatest VolumeAbout the JournalEditorsTheme Sections MEPS 536:107-121 (2015) - DOI: https://doi.org/10.3354/meps11396 Algorithms to estimate Antarctic sea ice algal biomass from under-ice irradiance spectra at regional scales Jessica Melbourne-Thomas1,2,*, Klaus M. Meiners1,2, C. J. Mundy3, Christina Schallenberg4, Katherine L. Tattersall5, Gerhard S. Dieckmann6 1Australian Antarctic Division, Department of the Environment, 203 Channel Highway, Kingston, Tasmania 7050, Australia 2Antarctic Climate & Ecosystems Cooperative Research Centre, University of Tasmania, Hobart, Tasmania 7001, Australia 3Centre for Earth Observation Science, Clayton H. Riddell Faculty of Environment, Earth, and Resources, University of Manitoba, Winnipeg, Manitoba R3T 2N2, Canada 4School of Earth and Ocean Sciences, University of Victoria, Victoria, British Columbia V8P 5C2, Canada 5Integrated Marine Observing System, University of Tasmania, Hobart, Tasmania 7001, Australia 6Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, 27570 Bremerhaven, Germany *Corresponding author: jess.melbourne-thomas@aad.gov.au ABSTRACT: The presence of algal pigments in sea ice alters under-ice irradiance spectra, and the relationship between these variables can be used as a non-invasive means for estimating ice-associated algal biomass on ecologically relevant spatial and temporal scales. While the influence of snow cover and ice algal biomass on spectra transmitted through the snow-ice matrix has been examined for the Arctic, it has not been tested for Antarctic sea ice at regional scales. We used paired measurements of sea ice core chl a concentrations and hyperspectral-transmitted under-ice irradiances from 59 sites sampled off East Antarctica and in the Weddell Sea to develop algorithms for estimating algal biomass in Antarctic pack ice. We compared 4 approaches that have been used in various bio-optical studies for marine systems: normalised difference indices, ratios of spectral irradiance, scaled band area and empirical orthogonal functions. The percentage of variance explained by these models ranged from 38 to 79%, with the best-performing approach being normalised difference indices. Given the low concentrations of integrated chl a observed in our study compared with previous studies, our statistical models performed surprisingly well in explaining variability in these concentrations. Our findings provide a basis for future work to develop methods for non-invasive time series measurements and medium- to large-scale spatial mapping of Antarctic ice algal biomass using instrumented underwater vehicles. KEY WORDS: Sea ice algae · Chl a · Bio-optics · Normalised difference index · Weddell Sea · East Antarctica Full text in pdf format Corrigendum PreviousNextCite this article as: Melbourne-Thomas J, Meiners KM, Mundy CJ, Schallenberg C, Tattersall KL, Dieckmann GS (2015) Algorithms to estimate Antarctic sea ice algal biomass from under-ice irradiance spectra at regional scales. Mar Ecol Prog Ser 536:107-121. https://doi.org/10.3354/meps11396 Export citation RSS - Facebook - Tweet - linkedIn Cited by Published in MEPS Vol. 536. Online publication date: September 29, 2015 Print ISSN: 0171-8630; Online ISSN: 1616-1599 Copyright © 2015 Inter-Research." @default.
• W2190200975 created "2016-06-24" @default.
• W2190200975 creator A5031731653 @default.
• W2190200975 creator A5032207558 @default.
• W2190200975 creator A5034186012 @default.
• W2190200975 creator A5045820022 @default.
• W2190200975 creator A5050173806 @default.
• W2190200975 creator A5084000712 @default.
• W2190200975 date "2015-09-29" @default.
• W2190200975 modified "2023-09-26" @default.
• W2190200975 title "Algorithms to estimate Antarctic sea ice algal biomass from under-ice irradiance spectra at regional scales" @default.
• W2190200975 cites W1509461544 @default.
• W2190200975 cites W1553038050 @default.
• W2190200975 cites W1661799239 @default.
• W2190200975 cites W1966001186 @default.
• W2190200975 cites W1970834152 @default.
• W2190200975 cites W1973545391 @default.
• W2190200975 cites W1977578748 @default.
• W2190200975 cites W1978822144 @default.
• W2190200975 cites W1983283261 @default.
• W2190200975 cites W1986021413 @default.
• W2190200975 cites W1987026198 @default.
• W2190200975 cites W1990511605 @default.
• W2190200975 cites W1995723003 @default.
• W2190200975 cites W1996358832 @default.
• W2190200975 cites W2001217423 @default.
• W2190200975 cites W2010268226 @default.
• W2190200975 cites W2029772439 @default.
• W2190200975 cites W2037143261 @default.
• W2190200975 cites W2038766830 @default.
• W2190200975 cites W2039198922 @default.
• W2190200975 cites W2043647321 @default.
• W2190200975 cites W2046391157 @default.
• W2190200975 cites W2067342814 @default.
• W2190200975 cites W2068795569 @default.
• W2190200975 cites W2085345910 @default.
• W2190200975 cites W2089848876 @default.
• W2190200975 cites W2092464711 @default.
• W2190200975 cites W2094246569 @default.
• W2190200975 cites W2111008714 @default.
• W2190200975 cites W2111507152 @default.
• W2190200975 cites W2111792017 @default.
• W2190200975 cites W2115384265 @default.
• W2190200975 cites W2120950111 @default.
• W2190200975 cites W2137215647 @default.
• W2190200975 cites W2148203432 @default.
• W2190200975 cites W2149675566 @default.
• W2190200975 cites W2151675115 @default.
• W2190200975 cites W2164689991 @default.
• W2190200975 cites W2316537729 @default.
• W2190200975 cites W4246909492 @default.
• W2190200975 cites W4249369816 @default.
• W2190200975 doi "https://doi.org/10.3354/meps11396" @default.
• W2190200975 hasPublicationYear "2015" @default.
• W2190200975 type Work @default.
• W2190200975 sameAs 2190200975 @default.
• W2190200975 citedByCount "22" @default.
• W2190200975 countsByYear W21902009752016 @default.
• W2190200975 countsByYear W21902009752017 @default.
• W2190200975 countsByYear W21902009752018 @default.
• W2190200975 countsByYear W21902009752019 @default.
• W2190200975 countsByYear W21902009752020 @default.
• W2190200975 countsByYear W21902009752021 @default.
• W2190200975 countsByYear W21902009752022 @default.
• W2190200975 crossrefType "journal-article" @default.
• W2190200975 hasAuthorship W2190200975A5031731653 @default.
• W2190200975 hasAuthorship W2190200975A5032207558 @default.
• W2190200975 hasAuthorship W2190200975A5034186012 @default.
• W2190200975 hasAuthorship W2190200975A5045820022 @default.
• W2190200975 hasAuthorship W2190200975A5050173806 @default.
• W2190200975 hasAuthorship W2190200975A5084000712 @default.
• W2190200975 hasBestOaLocation W21902009752 @default.
• W2190200975 hasConcept C100970517 @default.
• W2190200975 hasConcept C111368507 @default.
• W2190200975 hasConcept C115540264 @default.
• W2190200975 hasConcept C127313418 @default.
• W2190200975 hasConcept C136894858 @default.
• W2190200975 hasConcept C153294291 @default.
• W2190200975 hasConcept C161798024 @default.
• W2190200975 hasConcept C197046000 @default.
• W2190200975 hasConcept C205649164 @default.
• W2190200975 hasConcept C39432304 @default.
• W2190200975 hasConcept C518008717 @default.
• W2190200975 hasConceptScore W2190200975C100970517 @default.
• W2190200975 hasConceptScore W2190200975C111368507 @default.
• W2190200975 hasConceptScore W2190200975C115540264 @default.
• W2190200975 hasConceptScore W2190200975C127313418 @default.
• W2190200975 hasConceptScore W2190200975C136894858 @default.
• W2190200975 hasConceptScore W2190200975C153294291 @default.
• W2190200975 hasConceptScore W2190200975C161798024 @default.
• W2190200975 hasConceptScore W2190200975C197046000 @default.
• W2190200975 hasConceptScore W2190200975C205649164 @default.
• W2190200975 hasConceptScore W2190200975C39432304 @default.
• W2190200975 hasConceptScore W2190200975C518008717 @default.
• W2190200975 hasLocation W21902009751 @default.
• W2190200975 hasLocation W21902009752 @default.
• W2190200975 hasOpenAccess W2190200975 @default.
• W2190200975 hasPrimaryLocation W21902009751 @default.

• next